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The Information Management Approach to Project Management: Insights, Strategies and Pitfalls
BY LINDA SHAVE FRIM
WHAT IS A PROJECT AND WHAT ARE POPULAR PROJECT MANAGEMENT MYTHOLOGIES?
A project is a group of interconnected activities that are planned and then executed in a certain sequence to create a product or service to a defined quality standard, within budget, within a specified timeframe, to achieve planned and agreed outcomes.
Popular project management methodologies such as Agile have been around for some time. Project management methodologies are rooted in hardware, software, application developments, system migrations, technology and network architectural projects. The advantage of Agile is that it embraces unpredictability by allowing you to break down projects into smaller chunks, which make it easier to prioritise, add or drop features during the project lifecycle. This agility makes Agile far more attractive for business and project managers than some other methodologies such as Waterfall. The Waterfall project management methodology is rigid and inflexible making it almost impossible to change features mid-way through the project lifecycle.
Project Management Tools To Take You Into The New Age Of Rapid Change And Complexity Of Information Management
Traditional project management tools and software extract information in a ‘pull’ format. This information can assist project managers to measure their efficiency against project milestones and track deliverables against Key Performance Indicators (KPIs). The downside of these long-established project management tools is that they cannot predict ‘what if’ future scenarios, nor pre-empt issues before they arise.
Digital transformation projects are becoming more complex. There is now the need for new project management tools that enable both pull and push access to real time data. Real time data such as structured, semi-structured, unstructured or sensor data and tools that proactively ‘think’, ‘do’ and provide dashboards, visualisation and reports at any time to support the project manager.
The development of Software as a Service (SaaS), and the utilisation of cloud-based project management software tools for streamlining standardised project management processes, are enabling organisations to improve performance monitoring, resource management, increasing efficiency and effectiveness, reducing costs and identifying project pitfalls.
I believe that in 2023 we will see the further development and the use of artificial intelligence (AI) tools for project management. AI tools are already starting to make an appearance in large to medium complex scale projects. For example, the Australian Government, CSIRO and Data 61 are investing in AI and Machine Learning (ML) technologies and solutions for such things as emergency management, traffic control and smart city infrastructures.
WILL
ARTIFICIAL INTELLIGENCE REPLACE CURRENT PROJECT MANAGEMENT METHODOLOGIES?
Awareness and understanding of artificial intelligence vary across different segments of industry and society. For example, the terms artificial intelligence, machine learning, cognitive technologies and cognitive computing are commonly used. In fact, AI and ML are often combined or confused; despite ML being a sub-field of AI.
Cognitive technologies are products of the field of AI. Products that are able to perform tasks that only humans used to be able to do. It is in these areas of cognitive technologies and machine learning that we are now seeing significant interest and commercial activity by vendors. It is these areas of AI that will potentially affect or will likely soon affect organisations, industries and societies and, therefore, AI for project management holds great potential.
AI has the potential to handle most (if not all) of the 49 processes outlined in the Project Management Body of Knowledge (PMBoK) as they relate to the traditional project management methodology. AI coupled with robotic or intelligence process automation for project management could be trained as a cognitive tool to support the five different stages in project management, these are initiation, planning, execution, monitoring and control, and closing the project. AI for project management will also aid in the automation of project risks. The utilisation of AI models at the different stages of a project can help identify and alert teams of any impending risk as AI can observe the actual progress against the planned schedule, resource management and/or point out any underperformance against key performance indicators (KPIs).
Robotic or intelligent process automation for project management, also referred to as ‘autonomous’ project management, would need limited input or involvement from a human project manager, thus potentially relieving the human project manager of the manually intensive and time-consuming tasks. This would allow the human project manager to concentrate on providing leadership, negotiation, storytelling, empathy, communication and critical thinking.
The next stage to AI for project management will be the need for continuous learning, just as the human workforce needs to continuously learn and adapt, so do ‘artificial intelligence’ software tools for project management. Enter ML for project management. In brief, ML uses sophisticated algorithms to “learn” from massive volumes of Big Data and is used to improve the accuracy of predictive models. The more data the algorithms can access, the more they can learn, and the more accurate the outcome, depending on the nature of the business problem being addressed.
The Deloitte University Press, released a report from the Deloitte Center for Government Insights, called ‘AI-augmented government using cognitive technologies to redesign public sector work’. It provides an excellent insight into how AI can benefit government, cognitive technologies in government work and automation choices. https://www2.deloitte.com/ content/dam/insights/us/articles/3832_AI-augmentedgovernment/DUP_AI-augmented-government.pdf
Another area for project management and project managers is the rise and use of Quantum Information Processing. As business and government create, capture and use real time data feeds, datasets are becoming larger and more complex and the use of traditional classical computers is being increasingly challenged. Quantum computing has the potential to revolutionise classical information processing and holds the promise to solve these complex challenges for business and government now and into the future.
INFORMATION MANAGEMENT INSIGHTS OR PITFALLS TO CREATIVE PROJECT MANAGEMENT?
ML automates analytical model building by using statistics, operations research and physics to find hidden insights and value in data by embedding analytics. By using embedded analytics to transform data into meaningful insights they are also providing the capacity for the ML systems to learn automatically from patterns or features found in different data sources. Real time data sources that project managers can now source from structured, semi-structured, unstructured and sensor data that can be collected from multiple sources such as smart grids, citizen and customer digital transactions. This real time data combined with AI and ML can provide real time dashboards, visualisation and reports at any time to support the project manager.
The primary pitfall to creative project management is the quality of the data sources available. You need to know that your data sources are trustworthy (accurate and reliable), available (when and where required), usable (data needs to be in a usable format) and you have the analytic tools to undertake the analysis. Successful use of AI and ML is reliant upon the cleaning of data, the availability of data, the quality of the data gathered and structuring of the datasets to effectively analyse, interpret and extract meaning. The quality of your data is key for conducting data analytics, data migrations, integrations, transformations projects and planning projects for the future.
MASTER THE INFORMATION AGE USING DATA ANALYTICS AND DATA LITERACY TO ENHANCE PROJECT MANAGEMENT.
Data analytics refers to the process and practice of analysing data to answer questions, extract insights, and identify trends. Data analytics integrates structured, semistructured, unstructured and sensor data with real-time feeds and queries, opening new paths to innovation and insights for project management and project managers. Data analytics is devoted to realising actionable insights that can be applied immediately based on existing interrogations.
Data literacy is the ability to read, understand, and utilise data in different ways. Being data literate is important because it can help non-data professionals read and understand data, and use it to inform their decisionmaking. Data literacy skills play a crucial part in project teams enabling them to identify, locate, interpret and evaluate a range of information and data types in an ethical manner, and then use that information to respond to specific questions or issues. It should also be noted that many enterprises, Government (Commonwealth and State) and their agencies are also using digital storytelling to improve reader engagements and get better results. The use of storytelling can help project managers break down, translate and communicate complexities and much more.
THE FUTURE OF PROJECT MANAGEMENT - WHERE TO NEXT?
In conclusion, neither progress nor future technological advances can be stopped. The future of modern project management will continue to evolve and create new opportunities as well as identifying issues that will need to be addressed, just as the traditional approaches to project management have done in the past and over time. Nevertheless, the future is bright, with AI, ML, robotic and intelligent process automation (autonomous project management) managing an increasing number of the mundane and boring tasks that project managers face today. Paving the way for new project management approaches and the embryonic digital literate project manager of the future.
About The Author
Linda Shave FRIM, is acknowledged as a thought leader and architect of change. She is a researcher, consultant, educator and author on topic areas such as intelligent information management, artificial intelligence, robotic process automation, privacy, and security. Linda is a gold laureate winner for Government Innovation and has an interest in data science, robotics, and quantum computing. Linda is a member of numerous professional organisations. Linda can be contacted at linda.bizwyse@gmail.com
